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Highly efficient source of heat and hot water, where outside air is blown through a network of tubes filled with R32 refrigerant. This warms up the refrigerant, and it turns from a liquid into a gas. The gas then passes through a compressor, which adds more heat. The compressed, hot gas passes into a heat exchanger and the refrigerant transfers its heat to the cool air or water, which is then circulated around the home to provide heating. The refrigerant condenses back into a cool liquid and repeats the cycle. Zero carbon if used with a renewable electrical tariff. Can closely match the running costs of other home heating systems. Low maintenance with a long service life and low running costs. Can be integrated with other heating emitters including underfloor heating and solar PV.
Highly efficient source of heat and hot water, where outside air is blown through a network of tubes filled with R32 refrigerant. This warms up the refrigerant, and it turns from a liquid into a gas. The gas then passes through a compressor, which adds more heat. The compressed, hot gas passes into a heat exchanger and the refrigerant transfers its heat to the cool air or water, which is then circulated around the home to provide heating. The refrigerant condenses back into a cool liquid and repeats the cycle. Zero carbon if used with a renewable electrical tariff. Can closely match the running costs of other home heating systems. Low maintenance with a long service life and low running costs. Can be integrated with other heating emitters including underfloor heating and solar PV.
